EP0332957A1 - Heating control device - Google Patents

Abstract

The heating control device exhibits a data memory (4), a program memory (6), a microprocessor (2) and an operating panel (36). To simplify operation, the operating panel consists of a transparent switching panel (38) with individually selectable switching elements, under which a multi-function display (46) is arranged for the direct indication of the adjustment parameters and of the activated display fields and of activated key fields. The switching panel (38) exhibits: key fields (401-5) which are permanently allocated to particular operating modes, key fields (441-4) which are permanently allocated to particular elements of the heating system and key fields (421-7) which can be optionally allocated to various functions in the manner of a menu and can be correspondingly designated. <IMAGE>

Description

The invention relates to a heating control device according to the preamble of claim 1.

Heating control devices of the type mentioned at the outset are known, for example from CH-PS 635 204. This heating control device has a memory which is periodically queried by a clock and in which preselectable operating modes of the system are stored, which on certain days, during the whole day or from preselectable times of certain day types are required and are issued as setpoint commands to a control or regulating device influencing the system. A first group of buttons is available for programming and visualizing the programs that have already been saved. Apart from this first group of buttons, a second group of buttons is assigned to different operating states of the system. By pressing a corresponding key of the second key group, an operating state can be called up at any time in the sense of bridging the currently running program with simultaneous display. Simultaneously pressing one key of the first key group and one key of the second key group triggers a reprogramming of the corresponding memory. This heating control unit is relatively difficult to operate because apart from the directly displayed time and symbolically displayed days of the week, only signal lamps are available for all operating states from which it is not yet clear what is stored in the individual memories and what is going on. Programming is also cumbersome because two or more keys must always be pressed at the same time and it is then still not clear what actually happens when the keys are pressed. Accordingly, the setting options are limited.

The object of the invention is to provide a heating control device of the type mentioned, which is much more user-friendly and flexible.

The stated object is achieved in the heating control device mentioned at the outset by the characterizing features of claim 1.

By combining a circuit board with keypads and a multifunction display, both of which are connected to a microprocessor and can be controlled accordingly, a direct display of the setting parameters such as time, temperature profile, day of the week, hydraulic circuit diagram etc., as well as a direct display of the activated display fields as well as the activated keypads. Each keypad already shows what it is used for and when it is pressed, it immediately shows what triggers it. This results in a significant simplification of the operation and improvement of the clarity of such a heating control device.

In the present case, the characteristic of heat generators is to be understood in the most general form and is intended to include both direct heat generators such as burners and furnaces, and indirect heat generators such as heat exchangers.

Advantageous embodiments of the heating control device are described in claims 2 to 12.

An embodiment according to claim 2 is particularly advantageous since a fixed keypad is then assigned to each of the basic operating modes, so that such an operating mode can only be triggered by actuating the keypad. By illuminating the keypad or by inverting or changing the display, it can then be indicated that this operating mode is switched on, i.e. is driven by means of the heating control unit.

An embodiment according to claim 3 is particularly advantageous, as a result of which the individual parameters can be called up and checked or set. It is particularly advantageous that switching through a keypad to different operating levels only requires a limited number of display fields and keypads, which then appear and can be used in each operating level in the number and function required at that time. An embodiment according to claim 4 is also particularly advantageous, since then, on a hydraulic diagram of the corresponding heating system, certain units are assigned on the one hand keypads and on the other hand display fields, so that on the one hand the corresponding unit can be selected in the hydraulic diagram by pressing a key and on the other hand the respective operating state by corresponding switching of the display fields is immediately recognizable. The hydraulic diagram can be generated by printing on the control panel, arranging a film printed with the hydraulic diagram, or in particular according to claim 5. In the latter case, the hydraulic scheme can be changed easily by reprogramming.

An embodiment according to claim 6 is particularly advantageous since the parameters given in an operating mode can then be called up and displayed and / or set in the manner of a menu using the keypads of the second type.

An embodiment according to claim 7 is also expedient, which enables the heating control device to be switched from automatic mode to manual mode, so that the heating system can be operated according to certain parameters set by hand. Particularly advantageous is an embodiment according to claim 8, which makes it possible to connect a programmed computer that can check the functions of the heating control device by simulating operating processes and / or enables a setting of the heating control device, since the effect on a change in individual parameters immediately on the screen of the programmed computer can be made visible and checked. It is also possible to use the computer to record measurement data of the heating system in operation and to display it on the screen or to record it using a writing instrument.

An embodiment according to claim 9 is also particularly expedient, as a result of which certain parameters of the heating control device can be protected against manipulation by unauthorized persons.

An embodiment according to claim 10 is also advantageous, as a result of which it is possible to indicate in which day section which heating output is provided. Furthermore, an embodiment according to claim 11 is advantageous, which detects the degree of contamination of the burner chamber and / or the chimney or any other malfunction that requires maintenance.

A design according to claim 12, which makes it possible, for example, to arrange the part of the operating panel with the hydraulic diagram spatially separate from the part with the keypads, is also particularly advantageous.

• Figur 1 die Frontansicht eines Heizungssteuerge­rätes im Normalbetrieb mit Standardanzeige (Bedienungsebene I);
• Figur 2 einen an das Heizungssteuergerät an­schliessbaren, programmierten Rechner;
• Figur 3 einen Berechtigungsschlüssel für das Heizungssteuergerät;
• Figur 4 die Bedienungsplatte des Heizungssteuer­gerätes mit Schaltplatte und Multifunk­tionsdisplay, im Querschnitt;
• Figur 5 Blockdiagramm des Heizungssteuergerätes; und
• Figuren 6 bis 17 Frontansichten des Heizungssteuergerätes in verschiedenen Betriebsphasen.

Exemplary embodiments of the subject matter of the invention are described in more detail below with reference to the drawings, in which:

• Figure 1 is a front view of a heating control device in normal operation with a standard display (operating level I);
• FIG. 2 shows a programmed computer that can be connected to the heating control unit;
• Figure 3 shows an authorization key for the heating control device;
• Figure 4 shows the control panel of the heating control unit with circuit board and multi-function display, in cross section;
• FIG. 5 block diagram of the heating control device; and
• Figures 6 to 17 front views of the heating control device in different operating phases.

Figures 1 to 5 show the basic structure of the heating control device. The heating control device shown in FIG. 1 in its front view contains, as can be seen from FIG. 4, a microprocessor 2 to which on the one hand a data memory 4 for the individual stored parameters and on the other hand a program memory 6 for the control programs on the one hand of the heating system and on the other hand the control panel are connected. The microprocessor is also connected to an input which has, for example, connections for outside sensors 10, room sensors 12, boiler sensors 14, process water sensors 16, flue gas sensors 18, remote adjusters 20. Furthermore, an output 22 is connected to the microprocessor 2 with connections for a first circulation pump 24, a second circulation pump 26, a process water charging pump 28, a heat generator 29 with a first heating boiler 30 and a second heating boiler 32 and a mixing element 34. The heating control device is also included a control panel 36 equipped, which on the one hand consists of a transparent circuit board 38 which is connected to the microprocessor 2 and has keypads 40₁ to 40₅ of the first type, keypads 42₁ to 42₇ of the second type and keypads 44₁ to 44₄ of the third type. A multifunction display 46 is arranged under the circuit board 38, which is also connected to the microprocessor 2 via a display control unit 48. The microprocessor 2, the data memory 4, the program memory 6 and the display control device 48 can be combined in a single chip processor. The control panel 36 further includes a switch 50 for switching from automatic mode to manual mode and vice versa. There is also a connection 52, which is designed as an interface and serves on the one hand to connect a programmed computer 54 (FIG. 2), for example a personal computer (PC), and on the other hand to insert an authorization key 56 (FIG. 3).

The control panel, which is constructed from the multifunction display 46 and the circuit board 38, is of a known type, as is shown, for example, in FIG. 4 and is manufactured and sold by Optrex Corporation under the name transparent touch panel with LCD module. The circuit board 38 is formed from a transparent hard coating 58, under which there is a front side polyester film 60, to which a front side electrode 62 is connected. Rear electrode 68 is connected via outer seals 64 and spacers 66. The rear-side polyester film 70 then follows. Finally, the multifunction display 46 is connected via a buffer layer 72 and consists of a large number of punctiform liquid crystals, not shown, which can be controlled individually, so that representations of various types can be displayed. Finally, the control panel 36 also has a transparent printed film 74 on which a hydraulic diagram 76 is shown. However, it is also possible and more advantageous to represent the hydraulic diagram directly using the multifunction display 46 instead of the film 74.

As can be seen from Figure 1, the keypads 40₁ to 40₅ are permanently visible on the control panel and provided with symbolic representations which indicate the permanently assigned operating modes. The 40₁ UHR keypad is used for the operating mode according to the time switch, the 40₂ SUN keypad for daytime operation, the 40₃ MOON keypad for reduced night mode, the 40₄ HAHN keypad for summer operation with hot water, the 40₅ PRG keypad for program selection, i.e. switching from one operating level to one other. Are further permanently shown the hydraulic diagram 76, the heat generator 29 with the first and second boilers 30 and 32, a keypad 44₁, the hot water tank 78, the keypad 44₂ and the main heating circuit 80, the keypad 44₃ and the secondary heating circuit 82, the keypad 44₄ are assigned. The keypads 44₁ to 44₄ are also assigned to certain units of the heating system. Furthermore, the symbols for the first circulating pump 24, the second circulating pump 26, the process water charging pump 28 and the mixing element 34 are assigned display elements 84, 86, 88 and 90, 90a, which indicate the respective operating state, a bright representation "out of operation" and a dark one or inverse representation mean "commissioning".

In addition to these permanently visible keypads and display elements, there are also display elements that change and are only visible when needed. These include the time display 92 visible in FIG. 1 in normal operation and with standard display, the weekday display 94 and the operating program bar 96, with its display areas 98a, 98b, 98c for reduced night operation, full day operation and reduced day operation. The display elements 100, 102 in the heat generator symbol appear only when burner maintenance or chimney maintenance are required. The keypads 42₁ to 42₇ are only visible when needed and labeled according to the selected function, so there are menu buttons that receive the corresponding menu images or descriptions, as will be explained in more detail below.

The mode of operation of the heating control unit is divided into four operating levels I to IV, which select accordingly are cash. Of course, there may be more but fewer display elements and keypads for similar or different parameters and units, depending on the type of heating system and the desired ease of use.

Operating level I:

Operating level I is the normal level, in which the heating control unit automatically returns after a certain time if no functions are carried out in the other operating levels or to which it returns by pressing the keypad 42 1 END.

In normal operation, for example, the following are displayed:
76 Hydraulic diagram with the operating status of the units
96 operating program bars
92 time
94 weekday
TA outside temperature
TI room temperature
40₁ keypad operation according to primeval times
40₂ keypad day operation
40₃ keypad night mode
40₄ hot water operation keypad
40₅ Keypad program selection
100 burner maintenance
102 Chimney maintenance

By means of the keypads 40₁ to 40₄, as already mentioned, 4 operating modes can be selected directly by pressing a key. The switching status is displayed by changing the corresponding keypad from light to dark, i.e. inverted.

Operating level II:

Temperatures can be queried in operating level II and settings can be made with regard to the time 92 and the setpoint of the room temperature TI.

By pressing the keypad 40₅ PRG you get to the operating level II. At the bottom of the control panel 36, the keypads 42₁ to 42₇ appear. The key fields are labeled with the corresponding menu images or menu characters. All parameters of this operating level can be selected with the keypad 42 1 NEXT. If the keypad 42 1 changes from NEXT to END, there are no more parameters. By pressing the keypad 42₁ END, the heating control unit returns to the first operating level I.

Using the keypads 42₁ to 42₇, for example, the following temperatures given during the query can be queried and displayed (Fig. 7):
TA temperature outside
TI temperature room
TK temperature heat generator
TV temperature forward
TB temperature domestic hot water tank
TR flue gas temperature
CONTINUE

By pressing the keypad 42 1 NEXT, the keypads of Figure 9 can be made visible:
END end
CLOCK Set time
SUN 1 Set day temperature full
SUN 2 set day temperature reduced
MOON Set night temperature

Operating level III:

In operating level III, specific parameters of the heating system can be queried and set, provided that they are not locked and are only accessible with authorization key 56.

By pressing a keypad 44₁ to 44₄ for an aggregate of the heating system you get to operating level III and keypads 42₁ to 42₇ appear at the bottom of the control panel with the associated description of the parameters. The parameters can be selected and set using these keypads. The process is the same as in operating level II, but protected parameters that can only be set by authorized persons, such as a maintenance specialist, can be queried but not changed.

For example, the following parameters can be queried and at least partially set:
0̸T1 temperature room (mean)
0̸TA outside temperature (average)

Main heating circuit:

F1 fixed point (flow temperature) setting of the heating curve at + 15 ° TA
F * 1 optimized fixed point
K1 climate point (flow temperature) setting of the heating curve at -10 ° C TA
K * 1 optimized climate point
tve1 retention time for switching on the heating system to achieve TI at the programmed time tx₁
tve * 1 optimized lead time for switching on the heating system
tein1 last current switch-on time
tva1 Retention time for switching off the heating system so that TI is just present at the programmed time tx₂
tva * 1 optimized lead time for switching off the heating system
thousand1 last current switch-off time
TVmax maximum temperature flow
Sun / Wi summer / winter automatic mode

Heat generator:

TA I outside temperature related to the 1st boiler
TA II outside temperature related to the 2nd boiler
t _min minimum burner runtime per switch-on
tv₁₋₂ delay for switching on the 2nd boiler compared to the 1st boiler

Maintenance:

- Limit adjuster for chimney maintenance display
- Limit adjuster for burner maintenance display

Auxiliary heating circuit:

F2 fixed point (flow temperature) setting of the heating curve at + 15 ° C TA
K2 climate point (flow temperature) setting of the heating curve at -10 ° C TA
tve2 retention time for switching on the heating system to achieve TI at the programmed time tx₁
tva2 Retention time for switching off the heating system so that TI is just present at the programmed time tx₂
tein2 last actual switch-on time
thousand2 last actual switch-off time

Process water circuit:

Desired temperature of the domestic hot water tank
TKmaxB maximum temperature of the heat generator when charging with hot water

Operating level IV:

Operating level IV is only accessible to authorized users with an authorization key and the parameters locked in operating level III can be set in it.

Operating level IV is selected like operating level III, i.e. by pressing the keypads 44₁ to 44 ₄. So that the parameters, which are only displayed in operating level III, can be adjusted, the authorization key 56 is required, which is to be inserted into the connection 52 of the operating plate 36. After that, all parameters that are only accessible to authorized persons, such as the specialist staff, can be set according to the same procedure as in operating level III.

For example, the following parameters can be queried and set using the authorization key:
TKmin minimum temperature of the heat generator
TKmax maximum temperature of the heat generator
SD switching difference between switching the heat generator on and off
T _min minimum burner runtime per start
tv₁₋₂ delay for switching on the 2nd boiler compared to the 1st boiler

Some specific operating and display examples are described below.

example 1

If, starting from the normal operation of FIG. 1, a different operating mode is to be selected, such as summer operation with hot water, the corresponding keypad 40 ist must be pressed as shown in FIG changes from the normal to the inverse representation, which indicates that the operating mode of the keypad 40 ₁ is switched off and the operating mode of the keypad 40 ₄ is switched on. In the hydraulic diagram, the display elements 84, 86 of the circulation pumps 24, 26 also change from inverse to normal when the process water is required, and the display element 90 of the mixing element 34 changes from the middle inverse display to the normal display and the display element 90a from the normal display to the inverse display. It is therefore indicated that the domestic water charging pump 28 is in operation and the mixing element 34 blocks the bypass line and the skin heating circuit by the corresponding display element 90a changing from normal to inverse.

Example 2

If the current temperature TK of the heat generator is to be read, operating level II is selected, starting from the normal operation in FIG. 1, using the keypad 40₅PRG, as can be seen in FIG. By pressing the keypad 42₅ TK = temperature of the heat generator, the display "Current temperature of the heat generator 50 ° C" appears on the control panel 36, as can be seen in FIG. You can now leave the heating control unit to itself, then the display on the control panel returns to operating level I, normal operation with standard, after a certain period of time show (Figure 1) back or you switch back to operating level I by pressing the keypad 42₁ NEXT one or more times until appears in the keypad 42₁ END, whereupon by pressing the keypad 42₁ END again the heating control unit and the display return to operating level I. .

Example 3

To set the setpoint for the room temperature during the day, starting from normal operation in FIG. 1, the keypad 40₅ PRG is pressed, whereupon the heating control device is brought into operating level II according to FIG. 7. The keypads 42₁ to 42₇ then appear with the names:
CONTINUE
TR flue gas temperature
TB temperature domestic hot water tank
TV temperature forward
TK temperature heat generator
TI temperature room
TA temperature outside.

Pressing the keypad 42₁ NEXT changes the display of the keypads 42₁ to 42₇, only the keypads 42₁ to 42₅ appear with the names (Fig. 9):
END end
CLOCK Set time
SUN 1 Set day temperature full
SUN 2 set day temperature reduced
MOON Set night temperature.

By pressing the keypad 42₃ SUN 1 the display shows "target room temperature day 20.5 ° C" and the keypads 42₁ to 42₄ change to the keypads 42₁ to 42₃ with the new names (Fig. 10):
ENTER Enter the setting value
- Decrease the setpoint
+ Increase the setpoint.

By pressing the keypads 42₃, 42₂ +/- the setpoint can be increased or decreased. When the correct new setpoint is reached, it can be saved by pressing the 42₁ ENTER keypad. Then the lower keypad 42₁ to 42₃ of Figure 10 changes to that of Figure 9. If no further adjustment is to be made, the keypad 42₁ END must be pressed, whereupon the heating control unit returns to operating level I and normal operation according to Figure 1.

Example 4

To set the target temperature TBsoll of the hot water, starting from the normal operation in FIG. 1, the keypad 44₂ for the hot water tank 78 of the hydraulic diagram 76 must be actuated, whereupon the keypads 42₁ to 42₄ shown in FIG. 11 appear at the bottom of the operating panel 36 with the designation:
END end
CLOCK timer operation
Desired temperature of the domestic hot water tank
TKMaxB maximum temperature heat generator for hot water charging.

Then press the keypad 42₃, whereupon the display shown in FIG. 12 appears: "Process water - target temperature 55 ° C". Furthermore, the lower keypads 42₁ to 42₄ change to that of Figure 12, ie 42₁ to 42₃:
ENTER input
- Reduce
+ Increase.

By pressing the keypads 42₂ or 42₃ - / + the desired target temperature TBsoll of the hot water can be set and saved by pressing the keypad 42₁ ENTER. The display according to FIG. 11 then appears. If no further settings are to be made, the keypad 42 1 END must be pressed and the display and the operating level go back to that of FIG. 1.

Example 5

To set the time, again starting from normal operation according to FIG. 1, press the keypad 40feld PRG, whereupon the heating control device is switched to operating level II and the display according to FIG. 7 appears. By pressing the keypad 42₁ CONTINUE the display according to figure 9 appears. By pressing the keypad 42₂ CLOCK the display appears according to figure 13 with the display of the "current time 6:25 pm" and the current weekday "wednesday" as well as the changed keypad 42₁ to 42₃: ENTER = input; - = decrease + = increase. Using the corresponding keypads 42₂, 42₃, the time can be set accordingly and entered by pressing the keypad 42₁ and saved. After completing this process, the keypad according to Figure 9 appears again. By pressing the keypad 42 1 END, the heating control unit resumes normal operation according to Figure 1.

Example 6

To display and set the time program of the main heating circuit, again starting from normal operation according to FIG. 1, the keypad 44₃ for the main heating circuit 80 in the hydraulic diagram must be actuated, whereupon the display according to FIG. 14 appears. The keypads 42₁ to 42₇ are given the names:
CONTINUE
CLOCK Time in timer operation
F1 fixed point (flow temperature) - setting the heating curve at + 15 ° C TA
K1 climate point (flow temperature) setting of the heating curve at -10 ° C TA
TVmax maximum flow temperature
Sun / Wi summer / winter automatic mode
tve1 Retention time when switching on the heating system to achieve TI at the programmed time tx.

Now press the keypad 42₂ CLOCK, whereupon the display shown in FIG. 15 appears: display of the operating program bar 96, the time 92, the day of the week 94 and switchover of the keypad to the keypad 42₁ to 42₅:
ENTER input
+ NIGHT recording of post-operation
+ DAY 1 Recording of daytime operations in full
+ DAY 2 Recording of daytime operations reduced
- Deletion of the record.

The programming or recording of the operating program bar 96 begins by pressing the keypad 42₂ + NIGHT. As long as the keypad 42₂ is pressed, the operating program bar 96 is provided at 0 o'clock with the display area 98a and thus with the program area and the associated operating data. When the desired time for a change is released, the keypad 42₂ is released and the keypad 42₃ + DAY 1 or + DAY 2 is pressed and the corresponding display areas 98b or 98c are recorded, as can be seen from FIG. The remaining display area can then be recorded until midnight by pressing the keypad + NIGHT. For correction, the recording of the operating program bar can be deleted continuously using the keypad 42₅. By pressing the keypad 42₁ ENTER the operating program bar recorded for the associated day of the week is saved and switched to the next day of the week. All days of the week can be individually programmed in the same way, ie several heating cycles 98a, 98b, 98c per day can be set individually, with the programmed switch-on times being displayed on the operating program bar. By pressing the keypad 42₁ ENTER the display appears as shown in Figure 16. By pressing the keypad 42₁ NEXT the program moves to the display as shown in Figure 17 Next, with the keypads 42₁, 42₂: END = end and tva1 = retention time for switching off the heating system at the bottom of the control panel, so that at the programmed time tx₂ the room temperature TI is still available, that is, has practically not yet dropped. By actuating the keypad 42 1 END, the heating control device is returned to operating level I, ie the normal operation according to FIG. 1.

Example 7

By connecting a programmed computer 54 according to FIG. 2 to the connection 52 of the control panel 36 of the heating control device according to FIGS. 1 and 2, the heating control device can be checked in all parts. The individual operating modes, states and parameters can be simulated so that heating can also be carried out in summer mode, for example. The various characteristics of the mixer, heat generator and domestic hot water tank can be indicated on the screen 104 of the computer 54. The characteristic of the mixer is shown in FIG. 2, for example. It is also possible to display by means of the connected computer and to print out the operating data by means of any printer. Longer monitoring of the heating control unit can also be carried out using a test software for the computer.

When the mixer characteristic curve is displayed, the outside temperature TA is changed and it is possible to follow directly on the screen how the flow temperature TV follows the characteristic curve. In such a representation, the influence of a hot water charge is also visible.

When displaying the heating curve of the heat generator, the outside temperature can also be changed and it can be shown how the boiler temperature follows the curve. In such a representation, the influence of a hot water charge is also visible.

The hot water charge can be represented as a time function. The hot water temperature is changed as a function of time, whereby the flow and boiler temperature are displayed at the same time.

The output states of the controller are displayed at the same time as the images.

Numerous further exemplary embodiments are possible, so not only oil or gas burners can be used for the heat generator, but also wood and coal firing systems, electrical storage systems, heat pumps, heat exchangers for connection to district heating systems and the like. Accordingly, numerous other or additional parameters can be displayed and set.

The operating panel does not have to be in one piece, but can be divided into operating parts that can be spatially separated from one another.

Reference symbol list

• 2 microprocessor
• 4 data memories
• 6 program memories
• 8 entrance
• 10 outside sensors
• 12 room sensors
• 14 boiler sensors
• 15 flow sensor
• 16 hot water sensor
• 18 flue gas sensors
• 20 remote adjusters
• 22 exit
• 24 1. Circulation pump
• 26 2. Circulation pump
• 28 Domestic hot water charging pump
• 29 heat generators
• 30 1. Boiler
• 32 2. Boiler
• 34 mixing element (3-point)
• 36 control panel
• 38 circuit board
• 40₁₋₅ keypad
• 42₁₋₇ keypad
• 44₁₋₄ keypad
• 46 Multifunction display
• 48 Display control unit
• 50 switches
• 52 Connection
• 54 computers
• 56 authorization key
• 58 hard coating
• 60 front polyester film
• 62 front electrode
• 64 seal
• 66 spacers
• 68 backside electrode
• 70 back polyester film
• 72 buffer layer
• 74 slide
• 76 Hydraulic diagram
• 78 Domestic hot water tank
• 80 main heating circuit (44₃)
• 82 auxiliary heating circuit (44₄)
• 84 display element for 24
• 86 display element for 26
• 88 display element for 28
• 90 display element for 34
• 90a display element for 34
• 92 Time display
• 94 weekday display
• 96 operating program bars
• 98a display area of 96
• 98b display area of 96
• 98c display area of 96
• 100 display element for burner maintenance
• 102 Display element for chimney maintenance
• 104 screen

Claims (12)

1. heating control device, with a program memory (6) and a microprocessor (2) and with a control panel (36) with display elements (84, 86, 88, 90) and switching buttons (40₁₋₅, 42₁₋₇, 44₁₋₄), characterized in that the control panel (36) has a microprocessor (2) connected to a transparent circuit board (38) with keypads (40₁₋₅, 42₁₋₇, 44₁₋₄), under which a via a display control unit (48) with the A microprocessor (2) connected multifunction display (46) for the direct display of the setting parameters and the activated display fields and the activated keypads and also for the analogue display of the operating state of the heating system is arranged in a hydraulic diagram. 2. Heating control device according to claim 1, characterized in that the control panel (36) keypads (40₁₋₅) of the first type for on / off switching and direct display of programmed operating modes directly associated in the program memory (6), such as at least one of the operating modes: Automatic operation according to time switch, day operation, night operation, summer operation with domestic water; and preferably for displaying the switching state. 3. Heating control device according to claim 1 or 2, characterized in that the control panel (36) has at least one keypad (40₅, 44₁₋₄) for switching to at least one of the following operating levels and for displaying their parameters: a) Operating level I: normal operation with display of the hydraulic diagram of the heating system and at least the operating program bar (96) of the main heating circuit (80), as well as the time (92), the day of the week (94), the outside temperature (TA) and the room temperature (TI) ; b) Operating level II: query of temperatures (TB, TV, TK, TI, TA) as well as display and setting of time (92) and room temperature (TI); c) Operating level III: display and setting of parameters (TIsoll, TBsoll, F1, F2, K1, K2 SO / WI) of the heating system that are accessible to the user; d) Operating level IV: display of parameters (TKmin, TKmax, SD) of the heat generator (29) and their setting using an authorization key (56). 4. Heating control device according to one of claims 1 to 3, characterized in that the control panel (36) certain units (24, 26, 28, 34) of the hydraulic diagram (76) of the heating system associated keypads (44₁₋₄) and / or display fields ( 30, 32, 84, 86, 88, 90, 90a). 5. Heating control device according to one of claims 1 to 4, characterized in that the hydraulic diagram (76) by means of the multifunction display (46), the hydraulic diagram (76) can be represented. 6. Heating control device according to one of claims 1 to 5, characterized in that the control panel (36) has a number of key fields (42₁₋₇) of the second type, which can be activated individually and their function can be switched and are used to display and / or set parameters and to advance through the keypads. 7. Heating control device according to one of claims 1 to 6, characterized in that it has a switch (50) from manual to automatic mode and vice versa. 8. Heating control device according to one of claims 1 to 7, characterized in that it has an interface connection (52) for a programmed computer for function testing and / or setting and / or measurement data transmission. 9. Heating control device according to one of claims 1 to 8, characterized in that it has a connection (52) for an authorization key (56) for access and for changing protected parameters. 10. Heating control device according to one of claims 1 to 9, characterized in that the operating program bar (96) has at least three display areas (98a, 98b, 98c) for different temperatures. 11. Heating control device according to one of claims 1 to 10, characterized in that the operating plate (36), preferably in the symbol of the hydraulic diagram (76) for the heat generator (29), display elements (100, 102) for limit values such as a display element (100) for burner maintenance and / or a display element (102) for fireplace maintenance. 12. Heating control device according to one of claims 1 to 11, characterized in that the control panel (36) is divided into at least two control panel parts, which are arranged spatially apart.

Images